• Title/Summary/Keyword: 광역위성항법시스템

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Analysis of Radio Interference for Korean NDGPS Reference Station using Medium Frequency Band (중파대역을 사용하는 국내 NDGPS 기준국의 전파 간섭 분석)

  • Kim, Young-Wan;Jee, Seok-Keun
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.16 no.7
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    • pp.1344-1349
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    • 2012
  • The Korean DGPS station transmits the 200 bps GPS enhancement signal using the MSK modulation in frequency range of 283.5 kHz to 325 kHz. The land-based stations of 6 sites provide the service area of 80 km with the output power of 500 W. The ocean-based stations of 11 sites provide the output power of 300 W, which provide the DGPS service to 185 kM. Some places are serviced from two or three DGPS stations. The interferences among the DGPS stations using the high power can be occurred. Also, the performances of the user terminasl in dual service area can be degraded. In this paper, the protection ratios for the DGPS service are defined. Using the MF wave propagation model, the interferences among the DGPS stations and the adjacent wireless ground stations are analyzed. Also, the performances of DGPS user terminals are analyzed in the viewpoint of interference.

Performance Test of the WAAS Tropospheric Delay Model for the Korean WA-DGNSS (한국형 WA-DGNSS를 위한 WAAS 대류층 지연 보정모델의 성능연구)

  • Ahn, Yong-Won;Kim, Dong-Hyun;Bond, Jason;Choi, Wan-Sik
    • Journal of Advanced Navigation Technology
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    • v.15 no.4
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    • pp.523-535
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    • 2011
  • The precipitable water vapor (PW) was estimated using Global Navigation Satellite System (GNSS) from several GNSS stations within the Korean Peninsula. Nearby radiosonde sites covering the GNSS stations were used for the comparison and validation of test results. GNSS data recorded under typical and severe weather conditions were used to generalize our approach. Based on the analysis, we have confirmed that the derived PW values from the GNSS observables were well agreed on the estimates from the radiosonde observables within 10 mm level. Assuming that the GNSS observables could be a good weather monitoring tool, we further tested the performance of the current WAAS tropospheric delay model, UNB3, in the Korean Peninsula. Especially, the wet zenith delays estimated from the GNSS observables and from UNB3 delay model were compared. Test results showed that the modelled approach for the troposphere (i.e., UNB3) did not perform well especially under the wet weather conditions in the Korean Peninsula. It was suggested that a new model or a near real-time model (e.g., based on regional model from GNSS or numerical weather model) would be highly desirable for the Korean WA-DGNSS to minimize the effects of the tropospheric delay and hence to achieve high precision vertical navigation solutions.

Accuracy Evaluation of DGPS Service via Terrestrial Digital Multimedia Broadcasting (지상파 DMB 기반 DGPS 서비스 측위 정확도 평가)

  • Kim, Hye-In;Kim, Ji-Hye;Kim, Koon-Tack;Park, Kwan-Dong;Kim, Du-Sik
    • Journal of Navigation and Port Research
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    • v.36 no.6
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    • pp.437-442
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    • 2012
  • As of 2012, for service-area-widening and commercialization of DGPS service, the Ministry of Land, Transport and Maritime Affairs has completed a DGPS service via Terrestrial Digital Multimedia Broadcasting and doing experimental broadcasting. In this study, kinematic positioning tests were conducted based on DGPS service via T-DMB using low-cost GPS equipments in a dynamic environment. Standalone GPS, single-reference NDGPS via NTRIP, and virtual-reference DGPS via T-DMB surveys were conducted at the same time. And horizontal positioning errors were computed by comparing them with the result of high-precision positioning. As a result, when the DMB transmission interval was 3 seconds, horizontal positioning errors of standalone GPS, NTRIP-DGPS, and DMB-DGPS were 2.3m, 1.0m, and 0.7m, respectively. When the interval was 1 second, horizontal positioning errors were 2.0m, 1.2m, and 0.8m, respectively. Thus horizontal positioning accuracies improved with the DMB-DGPS compared to the traditional single-reference NDGPS.